Ultrawide-Bandwidth Single-Channel 0.4-THz Wireless Link Combining Broadband Quasi-Optic Photomixer and Coherent Detection. G. Ducournau, Szriftgiser, P., Beck, A., Bacquet, D., Pavanello, F., Peytavit, E., Zaknoune, M., Akalin, T., & Lampin, J. IEEE Transactions on Terahertz Science and Technology, 4(3):328–337, May, 2014.
doi  abstract   bibtex   
Free space communications with huge data capacity have become a key point for the development of mobile access, services, and network technologies convergence. Wireless links using emerging terahertz technologies, also referred to as T-ray communications, have become an intensive research field within last years since T-rays at the millimeter/submillimeter frontier remain more robust in terms of scintillation, dielectric obstacles, and fog compared with near-infrared signals. Using a passive THz hot-spot which can be fed by fiber optic networks, we investigate up bit rates up to 46 Gbps for a THz wireless transmission system at 400-GHz carrier frequency. Using a THz photomixer integrated with a specific broadband antenna and heterodyne electronic detection, we investigate the eye diagrams using 1-μW received power, highlighting the high sensitivity and ultra-wideband behavior of the whole THz system.
@article{g._ducournau_ultrawide-bandwidth_2014,
	title = {Ultrawide-{Bandwidth} {Single}-{Channel} 0.4-{THz} {Wireless} {Link} {Combining} {Broadband} {Quasi}-{Optic} {Photomixer} and {Coherent} {Detection}},
	volume = {4},
	issn = {2156-342X},
	doi = {10.1109/TTHZ.2014.2309006},
	abstract = {Free space communications with huge data capacity have become a key point for the development of mobile access, services, and network technologies convergence. Wireless links using emerging terahertz technologies, also referred to as T-ray communications, have become an intensive research field within last years since T-rays at the millimeter/submillimeter frontier remain more robust in terms of scintillation, dielectric obstacles, and fog compared with near-infrared signals. Using a passive THz hot-spot which can be fed by fiber optic networks, we investigate up bit rates up to 46 Gbps for a THz wireless transmission system at 400-GHz carrier frequency. Using a THz photomixer integrated with a specific broadband antenna and heterodyne electronic detection, we investigate the eye diagrams using 1-μW received power, highlighting the high sensitivity and ultra-wideband behavior of the whole THz system.},
	number = {3},
	journal = {IEEE Transactions on Terahertz Science and Technology},
	author = {{G. Ducournau} and Szriftgiser, P. and Beck, A. and Bacquet, D. and Pavanello, F. and Peytavit, E. and Zaknoune, M. and Akalin, T. and Lampin, J.},
	month = may,
	year = {2014},
	keywords = {scintillation, Receivers, optical fibre networks, Wireless communication, coherent detection, optical links, mobile radio, Optical fiber communication, Bandwidth, eye diagrams, photodiodes, Broadband antennas, Photonics, bit rate 46 Gbit/s, broadband antenna, Broadband communication, broadband quasi-optic photomixer, data capacity, dielectric obstacle, fiber optic networks, fog, free space communication, frequency 0.4 THz, heterodyne detection, heterodyne electronic detection, microwave antennas, mobile access, network technology convergence, passive THz hot spot, Photomixers, radio links, submillimeter frontier, T-ray communication, terahertz (THz) communications, terahertz technology, terahertz wave devices, THz photomixer, THz wireless transmission system, ultra wideband antennas, ultra wideband behavior, ultra wideband communication, ultrawide bandwidth single channel, unitraveling carrier photo-diode (UTC-PD), wireless link},
	pages = {328--337},
	file = {IEEE Xplore Abstract Record:D\:\\Zotero\\storage\\2VF8PNGA\\6774486.html:text/html;IEEE Xplore Full Text PDF:D\:\\Zotero\\storage\\SEE9XKXL\\Ducournau et al. - 2014 - Ultrawide-Bandwidth Single-Channel 0.4-THz Wireles.pdf:application/pdf}
}
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